Steve Trumbo | University of Connecticut (original) (raw)
Videos by Steve Trumbo
The carcass, which had been nicely rolled into a ball by the parents, was slightly unrolled. In t... more The carcass, which had been nicely rolled into a ball by the parents, was slightly unrolled. In the first half of the video a parent repairs the damage and in the second half of the video, a parent applies anal secretions over the carcass in a zig-zag fashion. A summary of the effects of these behaviors can be found at:
https://www.youtube.com/watch?v=klpnnUENbxA
Papers by Steve Trumbo
Journal of Evolutionary Biology, 2007
Recent work [Ecoscience (2000) vol. 7, 395–397] suggests that the burying beetle Nicrophorus pust... more Recent work [Ecoscience (2000) vol. 7, 395–397] suggests that the burying beetle Nicrophorus pustulatus may have undergone a remarkable host shift, exploiting snake eggs rather than carrion as resources for breeding. We conducted behavioural and physiological experiments to examine the hypothesis of a host shift and to formulate hypotheses on its origin. Two congeners of N. pustulatus, Nicrophorus orbicollis and Nicrophorus defodiens did not respond to snake eggs with typical breeding behaviour. When N. pustulatus male–female pairs (n = 14) were presented with clutches of snake eggs, the number of offspring but not the mean size of offspring varied with snake egg mass, indicating effective regulation of brood size. When breeding on turtle eggs, N. pustulatus had a more variable response than when exploiting snake eggs, suggesting that turtle eggs are not a primary resource for breeding. Nicrophorus pustulatus presented with both snake eggs and a mouse carcass combined and exploited the two resources within the same nest (10 of 12 trials). Mouse carcasses and snake eggs were treated differently. Carcasses were moved, buried and stripped of hair in a manner characteristic of burying beetles, whereas snake eggs were not moved or buried. Females that discovered a mouse carcass also had a significantly greater juvenile hormone increase than did females discovering snake eggs. Some responses to the two resources, however, were similar. Female N. pustulatus oviposited rapidly in response to either a mouse carcass or snake eggs, and males elevated sex pheromone emission in response to either resource. The efficient use of snake eggs, the ability to regulate brood size and the different responses to snake eggs and carrion suggest that N. pustulatus is well adapted to exploiting snake eggs for breeding. The use of snake eggs by N. pustulatus has potential implications for conservation of oviparous reptiles.
The Bulletin of zoological nomenclature, 2004
BioScience
Carrion is a highly ephemeral and nutrient rich resource, characterized by extreme biotic and abi... more Carrion is a highly ephemeral and nutrient rich resource, characterized by extreme biotic and abiotic stressors. We hypothesized that specific constraints of the carrion ecosystem, and especially its nutrient richness, ephemerality, and competition with microbes, have promoted the evolution of social behaviors in necrophagous insects. We show that group living is prevalent among early succession carrion breeding insects, suggesting that this trait has emerged as an adaptation to facilitate survival in the highly competitive environment of fresh carrion. We then highlight how developmental niche construction allows larvae to compete with microbes, efficiently feed on fresh cadavers, and rapidly reach maturity. We observed that larval societies and parental care are two different strategies responding to similar competitive and environmental constraints. We conclude that intra and interspecific competition on carrion are mitigated by social behavior.
Recent work [Ecoscience (2000) vol. 7, 395-397] suggests that the burying beetle Nicrophorus pust... more Recent work [Ecoscience (2000) vol. 7, 395-397] suggests that the burying beetle Nicrophorus pustulatus may have undergone a remarkable host shift, exploiting snake eggs rather than carrion as resources for breeding. We conducted behavioural and physiological experiments to examine the hypothesis of a host shift and to formulate hypotheses on its origin. Two congeners of N. pustulatus, Nicrophorus orbicollis and Nicrophorus defodiens did not respond to snake eggs with typical breeding behaviour. When N. pustulatus male-female pairs (n = 14) were presented with clutches of snake eggs, the number of offspring but not the mean size of offspring varied with snake egg mass, indicating effective regulation of brood size. When breeding on turtle eggs, N. pustulatus had a more variable response than when exploiting snake eggs, suggesting that turtle eggs are not a primary resource for breeding. Nicrophorus pustulatus presented with both snake eggs and a mouse carcass combined and exploited the two resources within the same nest (10 of 12 trials). Mouse carcasses and snake eggs were treated differently. Carcasses were moved, buried and stripped of hair in a manner characteristic of burying beetles, whereas snake eggs were not moved or buried. Females that discovered a mouse carcass also had a significantly greater juvenile hormone increase than did females discovering snake eggs. Some responses to the two resources, however, were similar. Female N. pustulatus oviposited rapidly in response to either a mouse carcass or snake eggs, and males elevated sex pheromone emission in response to either resource. The efficient use of snake eggs, the ability to regulate brood size and the different responses to snake eggs and carrion suggest that N. pustulatus is well adapted to exploiting snake eggs for breeding. The use of snake eggs by N. pustulatus has potential implications for conservation of oviparous reptiles.
Current Opinion in Insect Science
2016 International Congress of Entomology, 2016
Molecular Phylogenetics and Evolution, 2008
Burying beetles (Silphidae: Nicrophorus) are well-known for their biparental care and monopolizat... more Burying beetles (Silphidae: Nicrophorus) are well-known for their biparental care and monopolization of small vertebrate carcasses in subterranean crypts. They have been the focus of intense behavioral ecological research since the 1980s yet no thorough phylogenetic estimate for the group exists. The relationships among the species, and the validity of some species, are poorly understood. Here, we infer the relationships and examine species boundaries among 50 individuals representing 15 species, primarily of the investigator species group, using a mixture-model Bayesian analysis. Two mitochondrial genes, COI and COII, were used, providing 2129 aligned nucleotides (567 parsimony-informative). The Akaike Information Criterion and Bayes Factors were used to select the best fitting model, in addition to Reversible Jump MCMC, which accommodated model uncertainty. A 21 parameter, three-partition GTR + G was the final model chosen. Despite a presumed Old World origin for the genus itself, the basal lineages and immediate outgroups of the investigator species group are New World species. Bayesian methods reconstruct the common ancestor of the investigator species group as New World and imply one later transition to the Old World with two return transitions to the New World. Prior hypotheses concerning the questionable validity of four species names, Nicrophorus praedator, Nicrophorus confusus, Nicrophorus encaustus and Nicrophorus mexicanus were tested. No evidence was found for the validity of the Nicrophorus investigator synonym N. praedator. We found evidence rejecting the species status of N. confusus (NEW SYNONYM of Nicrophorus sepultor). Weak evidence was found for the species status of N. encaustus and N. mexicanus, which are tentatively retained as valid. Our results strongly reject a recently published hypothesis that Nicrophorus interruptus (NEW STATUS as valid species) is a subspecies of N. investigator.
Evolutionary Biology, 2013
The Semelparity Hypothesis (Tallamy and Brown in Animal Behav 57:727-730, 1999) predicts that amo... more The Semelparity Hypothesis (Tallamy and Brown in Animal Behav 57:727-730, 1999) predicts that among insects with parental care that iteroparity will be rare. It represents two important challenges. First, life history ecologists have sometimes linked extended parental care with iteroparity, not semelparity, as part of a suite of correlated characters associated with K-selective environments. Second, behavioral ecologists have developed theories for the evolution of eusociality that rely upon a subsocial species producing multiple cohorts of offspring, a precondition for offspring allocare and/or inheritance of a social unit. Using a database of invertebrates exhibiting maternal care in Costa (The other insect societies. Harvard University Press, Cambridge, 2006), the association between semelparity and maternal care was tested using a broad comparative analysis. Semelparity was found in only 24.5 % of the best-studied representative species. In addition, semelparity was more rare in species that form nests, burrows or galleries (12.1 %) than in species that guard offspring out in the open (45.0 %). Iteroparity was common both among nesting species with non-overlapping broods (serial nesting) and in species where a female produces broods of different aged offspring in the same nest (within-nest iteroparity). It is hypothesized that common factors, particularly rapid juvenile development on high quality resources, facilitated both serial nesting and parental care. Within-nest iteroparity is an essential stage in the evolution of eusociality that has often been overlooked. Recent models of sibling conflict and reproductive spacing suggest that parental care can be an indirect cause of within-nest iteroparity despite the fact that parental investment can lead directly to diminished future reproduction. The reversal of this life history correlation may occur as a result of the transition between asocial and subsocial nesting behavior; analogous reversals may be a frequent outcome of transitions between levels of social organization.
Ecological Entomology, 1990
Behavioral Ecology and Sociobiology, 2012
Behavioral Ecology, 1993
... Stephen T. Trumbo David S. Wilson Department of Biology, State University of New York, Bingha... more ... Stephen T. Trumbo David S. Wilson Department of Biology, State University of New York, Binghamton, NY 13902 ... ST Trumbo is now at the De-partment of Entomology, Uni-versity of Illinois, Urbana, IL ... a level of sociality at least equal to that of many communal bees and wasps ...
Archives of Insect Biochemistry and Physiology, 1997
The burying beetle, Nicrophorus orbicollis, is the first beetle exhibiting parental care for whic... more The burying beetle, Nicrophorus orbicollis, is the first beetle exhibiting parental care for which endocrinological studies have been initiated. Burying beetles bury and prepare small vertebrate carcasses as a breeding resource for their offspring. After emergence as an adult, hemolymph titers of juvenile hormone and ovarian size increase in concert for 2-3 weeks, and both plateau until an appropriate resource is discovered. Upon finding a suitable carcass, titers of juvenile hormone increase extremely rapidly (<20 min), and within 18 h ovarian mass increases threefold and oviposition begins. This rapid reproductive development is hypothesized to be selected by the intense competition for these protein-rich but quickly deteriorating resources. Burying beetle females exhibit an additional juvenile hormone surge at the time young hatch. This peak in juvenile hormone is hypothesized to be associated with either the considerable behavioral demands which accompany care of young larvae or with a female's willingness to oviposit a replacement clutch should brood failure occur early in the care-giving phase. Parental care has evolved in at least 16 additional families within the Coleoptera. Comparative studies of nonparental and parental groups will be important for understanding how the physiology of ancestral groups affects the evolution of complex social behavior. Arch. Insect Biochem.
Nutrition, hormones and the allocation of physiological resources are intricately related. To inv... more Nutrition, hormones and the allocation of physiological resources are intricately related. To investigate these inter-relationships in female burying beetles (Nicrophorus spp.), we examined the effect of diet quality on juvenile hormone (JH) levels and reproduction, and the effect of JH supplementation on reproduction and resistance to starvation. Nicrophorus orbicollis adult females fed a less preferred mealworm larvae diet gained less body mass, had smaller ovaries and had lower titers of JH in their hemolymph than females fed a preferred blowfly diet. When presented a carcass for breeding, females on a less preferred diet oviposited 33% fewer eggs, and eggs were of 18% less mass. Females on the less preferred diet also took longer to begin oviposition as indicated indirectly by the time when their eggs hatched. To investigate the effects of JH, independent of nutrition, JH was topically applied to single and paired females of Nicrophorus tomentosus. When presented a carcass, JH-treated paired females oviposited more eggs (28%-year 1, 44%-year 2) than control females, and also showed a trend toward faster oviposition. JH supplementation had a greater effect on single females. JH treatment increased the proportion of single females attempting reproduction (at least one viable larva), increased the number of eggs (69%-year 1, 123%-year 2), and increased the proportion of females ovipositing early. In separate experiments, treatment with JH or a JH analog negatively affected resistance to starvation in three species. Treatment with JH reduced starvation survival by 10.3% days in N. tomentosus females. Treatment with the JH analog methoprene reduced starvation survival 17.8% in N. orbicollis females and by 18% in Ptomascopus morio females. These results suggest that JH has positive and negative effects on different components of life history.
When burying beetles first emerge as adults, they search for well-rotted carcasses with fly maggo... more When burying beetles first emerge as adults, they search for well-rotted carcasses with fly maggots on which to feed. After attaining reproductive competence, they switch their search and respond to a small, fresh carcass to prepare for their brood. Because the cues used to locate a feeding versus a breeding resource both originate from carrion, the beetles must respond to subtle changes in volatiles during decomposition. We investigated cues used to locate a fresh carcass in the field by (1) a general subtractive method, applying an antibacterial or antifungal to reduce volatiles, and (2) a specific additive method, placing chemicals near a fresh carcass. Five sulfur-containing compounds were studied: dimethyl sulfide (DMS), dimethyl disulfide (DMDS), dimethyl trisulfide (DMTS), methyl thiolacetate (MeSAc) and methyl thiocyanate (MeSCN). For the sulfides, we predicted that DMS would be the most attractive and DMTS the least attractive because of differences in the timing of peak pr...
Microbially-derived volatile organic compounds recruit insects to carrion, shaping community asse... more Microbially-derived volatile organic compounds recruit insects to carrion, shaping community assembly and ecological succession. The importance of individual volatiles and interactions between volatiles are difficult to assess in the field because of (1) the myriad compounds from decomposing animals, and (2) the likelihood that complex component blends are important for the final approach to carrion. On the assumption that searching insects may use simpler volatile cues to orient at a distance, we employed a chemically-supplemented minimal trap that uses test chemicals to attract from a distance and a minimal carrion bait to induce trap entry. Traps supplemented with dimethyl trisulfide (DMTS) attracted more individuals than controls, while traps supplemented only with methyl thiolacetate (MeSAc) did not. Traps supplemented with both chemicals, however, attracted statistically greater numbers of adult silphids (Necrophila americana and Oiceoptoma noveboracense), and the histerid Eus...
Current Opinion in Insect Science
The carcass, which had been nicely rolled into a ball by the parents, was slightly unrolled. In t... more The carcass, which had been nicely rolled into a ball by the parents, was slightly unrolled. In the first half of the video a parent repairs the damage and in the second half of the video, a parent applies anal secretions over the carcass in a zig-zag fashion. A summary of the effects of these behaviors can be found at:
https://www.youtube.com/watch?v=klpnnUENbxA
Journal of Evolutionary Biology, 2007
Recent work [Ecoscience (2000) vol. 7, 395–397] suggests that the burying beetle Nicrophorus pust... more Recent work [Ecoscience (2000) vol. 7, 395–397] suggests that the burying beetle Nicrophorus pustulatus may have undergone a remarkable host shift, exploiting snake eggs rather than carrion as resources for breeding. We conducted behavioural and physiological experiments to examine the hypothesis of a host shift and to formulate hypotheses on its origin. Two congeners of N. pustulatus, Nicrophorus orbicollis and Nicrophorus defodiens did not respond to snake eggs with typical breeding behaviour. When N. pustulatus male–female pairs (n = 14) were presented with clutches of snake eggs, the number of offspring but not the mean size of offspring varied with snake egg mass, indicating effective regulation of brood size. When breeding on turtle eggs, N. pustulatus had a more variable response than when exploiting snake eggs, suggesting that turtle eggs are not a primary resource for breeding. Nicrophorus pustulatus presented with both snake eggs and a mouse carcass combined and exploited the two resources within the same nest (10 of 12 trials). Mouse carcasses and snake eggs were treated differently. Carcasses were moved, buried and stripped of hair in a manner characteristic of burying beetles, whereas snake eggs were not moved or buried. Females that discovered a mouse carcass also had a significantly greater juvenile hormone increase than did females discovering snake eggs. Some responses to the two resources, however, were similar. Female N. pustulatus oviposited rapidly in response to either a mouse carcass or snake eggs, and males elevated sex pheromone emission in response to either resource. The efficient use of snake eggs, the ability to regulate brood size and the different responses to snake eggs and carrion suggest that N. pustulatus is well adapted to exploiting snake eggs for breeding. The use of snake eggs by N. pustulatus has potential implications for conservation of oviparous reptiles.
The Bulletin of zoological nomenclature, 2004
BioScience
Carrion is a highly ephemeral and nutrient rich resource, characterized by extreme biotic and abi... more Carrion is a highly ephemeral and nutrient rich resource, characterized by extreme biotic and abiotic stressors. We hypothesized that specific constraints of the carrion ecosystem, and especially its nutrient richness, ephemerality, and competition with microbes, have promoted the evolution of social behaviors in necrophagous insects. We show that group living is prevalent among early succession carrion breeding insects, suggesting that this trait has emerged as an adaptation to facilitate survival in the highly competitive environment of fresh carrion. We then highlight how developmental niche construction allows larvae to compete with microbes, efficiently feed on fresh cadavers, and rapidly reach maturity. We observed that larval societies and parental care are two different strategies responding to similar competitive and environmental constraints. We conclude that intra and interspecific competition on carrion are mitigated by social behavior.
Recent work [Ecoscience (2000) vol. 7, 395-397] suggests that the burying beetle Nicrophorus pust... more Recent work [Ecoscience (2000) vol. 7, 395-397] suggests that the burying beetle Nicrophorus pustulatus may have undergone a remarkable host shift, exploiting snake eggs rather than carrion as resources for breeding. We conducted behavioural and physiological experiments to examine the hypothesis of a host shift and to formulate hypotheses on its origin. Two congeners of N. pustulatus, Nicrophorus orbicollis and Nicrophorus defodiens did not respond to snake eggs with typical breeding behaviour. When N. pustulatus male-female pairs (n = 14) were presented with clutches of snake eggs, the number of offspring but not the mean size of offspring varied with snake egg mass, indicating effective regulation of brood size. When breeding on turtle eggs, N. pustulatus had a more variable response than when exploiting snake eggs, suggesting that turtle eggs are not a primary resource for breeding. Nicrophorus pustulatus presented with both snake eggs and a mouse carcass combined and exploited the two resources within the same nest (10 of 12 trials). Mouse carcasses and snake eggs were treated differently. Carcasses were moved, buried and stripped of hair in a manner characteristic of burying beetles, whereas snake eggs were not moved or buried. Females that discovered a mouse carcass also had a significantly greater juvenile hormone increase than did females discovering snake eggs. Some responses to the two resources, however, were similar. Female N. pustulatus oviposited rapidly in response to either a mouse carcass or snake eggs, and males elevated sex pheromone emission in response to either resource. The efficient use of snake eggs, the ability to regulate brood size and the different responses to snake eggs and carrion suggest that N. pustulatus is well adapted to exploiting snake eggs for breeding. The use of snake eggs by N. pustulatus has potential implications for conservation of oviparous reptiles.
Current Opinion in Insect Science
2016 International Congress of Entomology, 2016
Molecular Phylogenetics and Evolution, 2008
Burying beetles (Silphidae: Nicrophorus) are well-known for their biparental care and monopolizat... more Burying beetles (Silphidae: Nicrophorus) are well-known for their biparental care and monopolization of small vertebrate carcasses in subterranean crypts. They have been the focus of intense behavioral ecological research since the 1980s yet no thorough phylogenetic estimate for the group exists. The relationships among the species, and the validity of some species, are poorly understood. Here, we infer the relationships and examine species boundaries among 50 individuals representing 15 species, primarily of the investigator species group, using a mixture-model Bayesian analysis. Two mitochondrial genes, COI and COII, were used, providing 2129 aligned nucleotides (567 parsimony-informative). The Akaike Information Criterion and Bayes Factors were used to select the best fitting model, in addition to Reversible Jump MCMC, which accommodated model uncertainty. A 21 parameter, three-partition GTR + G was the final model chosen. Despite a presumed Old World origin for the genus itself, the basal lineages and immediate outgroups of the investigator species group are New World species. Bayesian methods reconstruct the common ancestor of the investigator species group as New World and imply one later transition to the Old World with two return transitions to the New World. Prior hypotheses concerning the questionable validity of four species names, Nicrophorus praedator, Nicrophorus confusus, Nicrophorus encaustus and Nicrophorus mexicanus were tested. No evidence was found for the validity of the Nicrophorus investigator synonym N. praedator. We found evidence rejecting the species status of N. confusus (NEW SYNONYM of Nicrophorus sepultor). Weak evidence was found for the species status of N. encaustus and N. mexicanus, which are tentatively retained as valid. Our results strongly reject a recently published hypothesis that Nicrophorus interruptus (NEW STATUS as valid species) is a subspecies of N. investigator.
Evolutionary Biology, 2013
The Semelparity Hypothesis (Tallamy and Brown in Animal Behav 57:727-730, 1999) predicts that amo... more The Semelparity Hypothesis (Tallamy and Brown in Animal Behav 57:727-730, 1999) predicts that among insects with parental care that iteroparity will be rare. It represents two important challenges. First, life history ecologists have sometimes linked extended parental care with iteroparity, not semelparity, as part of a suite of correlated characters associated with K-selective environments. Second, behavioral ecologists have developed theories for the evolution of eusociality that rely upon a subsocial species producing multiple cohorts of offspring, a precondition for offspring allocare and/or inheritance of a social unit. Using a database of invertebrates exhibiting maternal care in Costa (The other insect societies. Harvard University Press, Cambridge, 2006), the association between semelparity and maternal care was tested using a broad comparative analysis. Semelparity was found in only 24.5 % of the best-studied representative species. In addition, semelparity was more rare in species that form nests, burrows or galleries (12.1 %) than in species that guard offspring out in the open (45.0 %). Iteroparity was common both among nesting species with non-overlapping broods (serial nesting) and in species where a female produces broods of different aged offspring in the same nest (within-nest iteroparity). It is hypothesized that common factors, particularly rapid juvenile development on high quality resources, facilitated both serial nesting and parental care. Within-nest iteroparity is an essential stage in the evolution of eusociality that has often been overlooked. Recent models of sibling conflict and reproductive spacing suggest that parental care can be an indirect cause of within-nest iteroparity despite the fact that parental investment can lead directly to diminished future reproduction. The reversal of this life history correlation may occur as a result of the transition between asocial and subsocial nesting behavior; analogous reversals may be a frequent outcome of transitions between levels of social organization.
Ecological Entomology, 1990
Behavioral Ecology and Sociobiology, 2012
Behavioral Ecology, 1993
... Stephen T. Trumbo David S. Wilson Department of Biology, State University of New York, Bingha... more ... Stephen T. Trumbo David S. Wilson Department of Biology, State University of New York, Binghamton, NY 13902 ... ST Trumbo is now at the De-partment of Entomology, Uni-versity of Illinois, Urbana, IL ... a level of sociality at least equal to that of many communal bees and wasps ...
Archives of Insect Biochemistry and Physiology, 1997
The burying beetle, Nicrophorus orbicollis, is the first beetle exhibiting parental care for whic... more The burying beetle, Nicrophorus orbicollis, is the first beetle exhibiting parental care for which endocrinological studies have been initiated. Burying beetles bury and prepare small vertebrate carcasses as a breeding resource for their offspring. After emergence as an adult, hemolymph titers of juvenile hormone and ovarian size increase in concert for 2-3 weeks, and both plateau until an appropriate resource is discovered. Upon finding a suitable carcass, titers of juvenile hormone increase extremely rapidly (<20 min), and within 18 h ovarian mass increases threefold and oviposition begins. This rapid reproductive development is hypothesized to be selected by the intense competition for these protein-rich but quickly deteriorating resources. Burying beetle females exhibit an additional juvenile hormone surge at the time young hatch. This peak in juvenile hormone is hypothesized to be associated with either the considerable behavioral demands which accompany care of young larvae or with a female's willingness to oviposit a replacement clutch should brood failure occur early in the care-giving phase. Parental care has evolved in at least 16 additional families within the Coleoptera. Comparative studies of nonparental and parental groups will be important for understanding how the physiology of ancestral groups affects the evolution of complex social behavior. Arch. Insect Biochem.
Nutrition, hormones and the allocation of physiological resources are intricately related. To inv... more Nutrition, hormones and the allocation of physiological resources are intricately related. To investigate these inter-relationships in female burying beetles (Nicrophorus spp.), we examined the effect of diet quality on juvenile hormone (JH) levels and reproduction, and the effect of JH supplementation on reproduction and resistance to starvation. Nicrophorus orbicollis adult females fed a less preferred mealworm larvae diet gained less body mass, had smaller ovaries and had lower titers of JH in their hemolymph than females fed a preferred blowfly diet. When presented a carcass for breeding, females on a less preferred diet oviposited 33% fewer eggs, and eggs were of 18% less mass. Females on the less preferred diet also took longer to begin oviposition as indicated indirectly by the time when their eggs hatched. To investigate the effects of JH, independent of nutrition, JH was topically applied to single and paired females of Nicrophorus tomentosus. When presented a carcass, JH-treated paired females oviposited more eggs (28%-year 1, 44%-year 2) than control females, and also showed a trend toward faster oviposition. JH supplementation had a greater effect on single females. JH treatment increased the proportion of single females attempting reproduction (at least one viable larva), increased the number of eggs (69%-year 1, 123%-year 2), and increased the proportion of females ovipositing early. In separate experiments, treatment with JH or a JH analog negatively affected resistance to starvation in three species. Treatment with JH reduced starvation survival by 10.3% days in N. tomentosus females. Treatment with the JH analog methoprene reduced starvation survival 17.8% in N. orbicollis females and by 18% in Ptomascopus morio females. These results suggest that JH has positive and negative effects on different components of life history.
When burying beetles first emerge as adults, they search for well-rotted carcasses with fly maggo... more When burying beetles first emerge as adults, they search for well-rotted carcasses with fly maggots on which to feed. After attaining reproductive competence, they switch their search and respond to a small, fresh carcass to prepare for their brood. Because the cues used to locate a feeding versus a breeding resource both originate from carrion, the beetles must respond to subtle changes in volatiles during decomposition. We investigated cues used to locate a fresh carcass in the field by (1) a general subtractive method, applying an antibacterial or antifungal to reduce volatiles, and (2) a specific additive method, placing chemicals near a fresh carcass. Five sulfur-containing compounds were studied: dimethyl sulfide (DMS), dimethyl disulfide (DMDS), dimethyl trisulfide (DMTS), methyl thiolacetate (MeSAc) and methyl thiocyanate (MeSCN). For the sulfides, we predicted that DMS would be the most attractive and DMTS the least attractive because of differences in the timing of peak pr...
Microbially-derived volatile organic compounds recruit insects to carrion, shaping community asse... more Microbially-derived volatile organic compounds recruit insects to carrion, shaping community assembly and ecological succession. The importance of individual volatiles and interactions between volatiles are difficult to assess in the field because of (1) the myriad compounds from decomposing animals, and (2) the likelihood that complex component blends are important for the final approach to carrion. On the assumption that searching insects may use simpler volatile cues to orient at a distance, we employed a chemically-supplemented minimal trap that uses test chemicals to attract from a distance and a minimal carrion bait to induce trap entry. Traps supplemented with dimethyl trisulfide (DMTS) attracted more individuals than controls, while traps supplemented only with methyl thiolacetate (MeSAc) did not. Traps supplemented with both chemicals, however, attracted statistically greater numbers of adult silphids (Necrophila americana and Oiceoptoma noveboracense), and the histerid Eus...
Current Opinion in Insect Science